地震地质 ›› 2004, Vol. 26 ›› Issue (3): 436-449.

• 构造物理实验 • 上一篇    下一篇

花岗岩变形破坏的阶段性模型——应力速度及预存微裂纹密度对断层形成过程的影响

雷兴林1,2, 佐藤隆司1, 西泽修1   

  1. 1. 日本产业技术综合研究所, テ3058567茨城县筑波市东1-1-1中央第7;
    2. 中国地震局地质研究所, 地震动力学国家重点实验室, 北京, 100029
  • 收稿日期:2004-04-18 修回日期:2004-06-27 出版日期:2004-09-02 发布日期:2009-10-26
  • 作者简介:雷兴林,男,1963年出生,1983年毕业于武汉地质学院,1989年在国家地震局地质研究所获博士学位,研究员,现主要从事地震震源过程的实验研究,电话:+81-298612468,E-mail:xinglin-lei@aist.go.jp.
  • 基金资助:
    国家"十五"科技攻关项目2001BA601B02和2004BA601B01共同资助。

THREE-STAGE FRACTURING MODEL FOR GRANITIC ROCKS UNDER TRIAXIAL COMPRESSION-ROLE OF MICROCRACK DENSITY AND STRESS RATE ON FAULT FORMATION

LEI Xing-lin1,2, Takashi Satoh1, Osamu Nishizawa1   

  1. 1. Institute of Geoscience, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba 305-8567, Japan;
    2. State Key Laboratory of Earthquake Dynamics, Institute of Geology, China Earthquolce Administration, Beijing 100029, China
  • Received:2004-04-18 Revised:2004-06-27 Online:2004-09-02 Published:2009-10-26

摘要: 依据对具有较高微裂纹密度的筑波花岗岩和极低微裂纹密度的花岗斑岩2种极端的岩石标本、在等应力速率的快速加载(约6MPa/min)和蠕变加载(轴向应力保持在约95%破坏强度)2个极端的加载条件下的实验结果,讨论了预存微裂纹密度与加载速度对多晶质结晶岩变形破坏过程的影响。实验中利用高速多通道声发射波形数字记录系统(每秒可记录多达5000个声发射事件的32通道波形),获得了岩石标本破坏前微破裂活动的详细时空分布数据。声发射的发生率、震级-频度关系中的b值及震源的空间分布揭示出岩石变形破坏过程中微破裂活动具有3个典型阶段:初期阶段、第2阶段和成核阶段。尤其是在成核阶段,还观测到发生率和b值有大幅度前兆性起伏。一般而言,在相同加载条件下预存微破裂密度越高,或对同一岩石加载速度越慢,对应的断层成核过程就越长,因此最终破坏的可预报性也越高。为了进一步探讨微破裂活动的阶段性特征及其物理本质,还利用亚临界破裂扩展模型对声发射数据进行了理论分析。

关键词: 岩石破坏实验, 声发射, 断层成核, 亚临界破裂扩展, b

Abstract: Based on the experimental results of two similar rocks having high/very low microcrack density under two extremely different loading conditions: fast constant stress rate (~6 MPa/m) loading and creep (at ~95% of the fracture strength) loading,the role of pre-existing microcracks and loading condition on the fracturing properties of granitic rocks was examined. The detailed spatio temporal distribution of acoustic emission (AE) events in these samples were monitored by the use of a high-speed multi-channel waveform recording system,which can record AE waveforms from 32 sensors mounted on the surface of tested sample without a major loss of events even for an event rate on the order of several thousand events per second. Event rate,b-value in magnitude-frequency relation,and hypocenter distribution of AE events characterize three typical long-term stages of microcracking activity during the fracturing process: primary,secondary and nucleation. Precursory anomalies on cracking activity such as event rate and b-value in the nucleation stage were observed. In general,a higher pre existing microcrack density or a lower loading stress-rate results in a longer nucleation stage,and therefore,increases the predictability of catastrophic failure event. Further,the physics of these stages is analyzed using the subcritical crack growth model for crack population of fractal size distribution based on the stress-aided corrosion theory.

Key words: rock fracture experiment, acoustic emission, fault nucleation, subcritical crack growth, b-value

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